5. Enter the Line Size and select the Beta of the Conditioning Orifice Plate. The
required primary element sizing parameters will be different depending on what
primary element is selected.
6. If necessary, select a Primary Element Material from the drop-down menu.
7. A calibration factor may be entered if a calibrated primary element is being used.
Note
A Joule-Thomson Coefficient can be enabled to compensate for the difference in
process temperature between the orifice plate location and the process
temperature measurement point. The Joule-Thomson Coefficient is available with
ASME MFC-3M-2 (2004) or ISO 5167-2.2003 (E) orifice plates used with Database
Gases, Superheated Steam, or AGA DCM/ISO Molar Composition Natural Gas. For
more information on the Joule-Thomson Coefficient, reference the appropriate
orifice plate standard.
8. Select Next > to advance to the Save/Send Configuration tab.
Example
Note
To be in compliance with appropriate national or international standards, beta ratios and
differential producer diameters should be within the limits as listed in the applicable
standards. The Engineering Assistant software will alert the user if a primary element value
exceeds these limits, but will allow the user to proceed with the flow configuration.
2.4.8
Save/send
About this task
The Save/Send Configuration tab shown in Figure 2-11 allows the user to view, save, and
send the configuration information to the Rosemount 3051SMV with the fully
compensated mass and energy flow feature board.
Procedure
1. Review the information under the Flow Configuration heading and Device
Configuration heading.
Note
For more information on device configuration, see Basic device configuration.
Configuration Reference Manual
October 2018 00809-0100-4803
22 Rosemount 3051S Multivariable Transmitter
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